Results for 'general relativity'

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  1. Robert Hermann.Bohr-Sommerfeld Quantization in General Relativity - 1980 - In A. R. Marlow (ed.), Quantum theory and gravitation. New York: Academic Press.
     
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  2. Deriving General Relativity from String Theory.Nick Huggett & Tiziana Vistarini - 2015 - Philosophy of Science 82 (5):1163-1174.
    Weyl symmetry of the classical bosonic string Lagrangian is broken by quantization, with profound consequences described here. Reimposing symmetry requires that the background space-time satisfy the equations of general relativity: general relativity, hence classical space-time as we know it, arises from string theory. We investigate the logical role of Weyl symmetry in this explanation of general relativity: it is not an independent physical postulate but required in quantum string theory, so from a certain point (...)
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  3.  31
    General Relativity as a Collection of Collections of Models.J. B. Manchak - 2021 - In Judit Madarász & Gergely Székely (eds.), Hajnal Andréka and István Németi on Unity of Science: From Computing to Relativity Theory Through Algebraic Logic. Springer. pp. 409-425.
    One usually identifies a particular collection of geometric objects with the models of general relativity. But within this standard collection lurk ‘physically unreasonable’ models of spacetime. If such models are ruled out, attention can be restricted to some sub-collection of ‘physically reasonable’ models which can be considered a variant theory of general relativity. Since we have yet to identify a privileged sub-collection of ‘physically reasonable’ models, it is helpful to think of ‘general relativity’ in (...)
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  4. General Relativity, Mental Causation, and Energy Conservation.J. Brian Pitts - 2022 - Erkenntnis 87 (4):1931-1973.
    The conservation of energy and momentum have been viewed as undermining Cartesian mental causation since the 1690s. Modern discussions of the topic tend to use mid-nineteenth century physics, neglecting both locality and Noether’s theorem and its converse. The relevance of General Relativity has rarely been considered. But a few authors have proposed that the non-localizability of gravitational energy and consequent lack of physically meaningful local conservation laws answers the conservation objection to mental causation: conservation already fails in GR, (...)
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  5. Why general relativity does need an interpretation.Gordon Belot - 1996 - Philosophy of Science 63 (3):88.
    There is a widespread impression that General Relativity, unlike Quantum Mechanics, is in no need of an interpretation. I present two reasons for thinking that this is a mistake. The first is the familiar hole argument. I argue that certain skeptical responses to this argument are too hasty in dismissing it as being irrelevant to the interpretative enterprise. My second reason is that interpretative questions about General Relativity are central to the search for a quantum theory (...)
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  6. (1 other version)General relativity and cosmology.George C. McVittie - 1956 - New York,: Wiley.
     
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  7.  37
    General relativity and gravitational waves.Joseph Weber - 1961 - New York,: Interscience Publishers.
    An internationally famous physicist and electrical engineer, the author of this text was a pioneer in the investigation of gravitational waves. Joseph Weber's General Relativity and Gravitational Waves offers a classic treatment of the subject. Appropriate for upper-level undergraduates and graduate students, this text remains ever relevant. Brief but thorough in its introduction to the foundations of general relativity, it also examines the elements of Riemannian geometry and tensor calculus applicable to this field. Approximately a quarter (...)
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  8. (1 other version)General relativity and the standard model: Why evidence for one does not disconfirm the other.Nicholaos Jones - 2008 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 40 (2):124-132.
    General Relativity and the Standard Model often are touted as the most rigorously and extensively confirmed scientific hypotheses of all time. Nonetheless, these theories appear to have consequences that are inconsistent with evidence about phenomena for which, respectively, quantum effects and gravity matter. This paper suggests an explanation for why the theories are not disconfirmed by such evidence. The key to this explanation is an approach to scientific hypotheses that allows their actual content to differ from their apparent (...)
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  9.  32
    General relativity with a background metric.Nathan Rosen - 1980 - Foundations of Physics 10 (9-10):673-704.
    An attempt is made to remove singularities arising in general relativity by modifying it so as to take into account the existence of a fundamental rest frame in the universe. This is done by introducing a background metric γμν (in addition to gμν) describing a spacetime of constant curvature with positive spatial curvature. The additional terms in the field equations are negligible for the solar system but important for intense fields. Cosmological models are obtained without singular states but (...)
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  10. Is prediction possible in general relativity?John Byron Manchak - 2008 - Foundations of Physics 38 (4):317-321.
    Here we briefly review the concept of "prediction" within the context of classical relativity theory. We prove a theorem asserting that one may predict one's own future only in a closed universe. We then question whether prediction is possible at all (even in closed universes). We note that interest in prediction has stemmed from considering the epistemological predicament of the observer. We argue that the definitions of prediction found thus far in the literature do not fully appreciate this predicament. (...)
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  11. General relativity as a perfectly Machian theory.Julian B. Barbour - 1995 - In Julian B. Barbour & H. Pfister (eds.), Mach's Principle: From Newton's Bucket to Quantum Gravity. Birkhäuser. pp. 214--36.
     
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  12. Does General Relativity Highlight Necessary Connections in Nature?Antonio Vassallo - 2021 - Synthese 199 (1-2):1-23.
    The dynamics of general relativity is encoded in a set of ten differential equations, the so-called Einstein field equations. It is usually believed that Einstein's equations represent a physical law describing the coupling of spacetime with material fields. However, just six of these equations actually describe the coupling mechanism: the remaining four represent a set of differential relations known as Bianchi identities. The paper discusses the physical role that the Bianchi identities play in general relativity, and (...)
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  13.  90
    The beauty of general relativity.Wu Zhong Chao - 1997 - Foundations of Science 2 (1):61-64.
    The author proposes to add another dichotomy to the list of essential tensions proposed by Professor Duda, namely beauty and ugliness. Physicists believe that only beautiful theories describe the world correctly, and that General Relativity is one of the most beautiful physical theories. The author explains why physicists regard this theory as beautiful.
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  14. General Relativity and Quantum Gravity in Terms of Quantum Measure: A philosophical comment.Vasil Penchev - 2020 - Logic and Philosophy of Mathematics eJournal (Elsevier: SSRN) 12 (17):1-37.
    The paper discusses the philosophical conclusions, which the interrelation between quantum mechanics and general relativity implies by quantum measure. Quantum measure is three-dimensional, both universal as the Borel measure and complete as the Lebesgue one. Its unit is a quantum bit (qubit) and can be considered as a generalization of the unit of classical information, a bit. It allows quantum mechanics to be interpreted in terms of quantum information, and all physical processes to be seen as informational in (...)
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  15.  44
    The multiple realizability of general relativity in quantum gravity.Rasmus Jaksland - 2019 - Synthese 199 (S2):441-467.
    Must a theory of quantum gravity have some truth to it if it can recover general relativity in some limit of the theory? This paper answers this question in the negative by indicating that general relativity is multiply realizable in quantum gravity. The argument is inspired by spacetime functionalism—multiple realizability being a central tenet of functionalism—and proceeds via three case studies: induced gravity, thermodynamic gravity, and entanglement gravity. In these, general relativity in the form (...)
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  16.  72
    General relativity as a hybrid theory: The genesis of Einstein's work on the problem of motion.Dennis Lehmkuhl - 2019 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 67:176-190.
  17.  59
    On the reduction of general relativity to Newtonian gravitation.Samuel C. Fletcher - 2019 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 68:1-15.
    Intertheoretic reduction in physics aspires to be both to be explanatory and perfectly general: it endeavors to explain why an older, simpler theory continues to be as successful as it is in terms of a newer, more sophisticated theory, and it aims to relate or otherwise account for as many features of the two theories as possible. Despite often being introduced as straightforward cases of intertheoretic reduction, candidate accounts of the reduction of general relativity to Newtonian gravitation (...)
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  18.  43
    General relativity; papers in honour of J. L. Synge.J. L. Synge & L. O'Raifeartaigh (eds.) - 1972 - Oxford,: Clarendon Press.
    Lanczos, C. Einstein's path from special to general relativity.--Balazs, N. L. The acceptability of physical theories: Poincaré versus Einstein.--Ellis, G. F. R. Global and non-global problems in cosmology, by G. F. R. Ellis and D. W. Sciama.--Ehlers, J. The geometry of free fall and light propagation, by J. Ehlers, F. A. E. Pirani and A. Schild.--Trautman, A. Invariance of Lagrangian systems.--Penrose, R. The geometry of impulsive gravitational waves.--Exact solutions of the Einstein-Maxwell equations for an accelerated charge.--Taub, A. H. (...)
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  19.  40
    Geometry and Motion in General Relativity.James Owen Weatherall - unknown
    A classic problem in general relativity, long studied by both physicists and philosophers of physics, concerns whether the geodesic principle may be derived from other principles of the theory, or must be posited independently. In a recent paper [Geroch & Weatherall, "The Motion of Small Bodies in Space-Time", Comm. Math. Phys. ], Bob Geroch and I have introduced a new approach to this problem, based on a notion we call "tracking". In the present paper, I situate the main (...)
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  20. General relativity needs no interpretation.Erik Curiel - 2009 - Philosophy of Science 76 (1):44-72.
    I argue that, contrary to the recent claims of physicists and philosophers of physics, general relativity requires no interpretation in any substantive sense of the term. I canvass the common reasons given in favor of the alleged need for an interpretation, including the difficulty in coming to grips with the physical significance of diffeomorphism invariance and of singular structure, and the problems faced in the search for a theory of quantum gravity. I find that none of them shows (...)
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  21.  58
    Expanding theory testing in general relativity: LIGO and parametrized theories.Lydia Patton - 2020 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 69:142-53.
    The multiple detections of gravitational waves by LIGO (the Laser Interferometer Gravitational-Wave Observatory), operated by Caltech and MIT, have been acclaimed as confirming Einstein's prediction, a century ago, that gravitational waves propagating as ripples in spacetime would be detected. Yunes and Pretorius (2009) investigate whether LIGO's template-based searches encode fundamental assumptions, especially the assumption that the background theory of general relativity is an accurate description of the phenomena detected in the search. They construct the parametrized post-Einsteinian (ppE) framework (...)
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  22. Dependence relations in general relativity.Antonio Vassallo - 2019 - European Journal for Philosophy of Science 10 (1):1-28.
    The paper discusses from a metaphysical standpoint the nature of the dependence relation underpinning the talk of mutual action between material and spatiotemporal structures in general relativity. It is shown that the standard analyses of dependence in terms of causation or grounding are ill-suited for the general relativistic context. Instead, a non-standard analytical framework in terms of structural equation modeling is exploited, which leads to the conclusion that the kind of dependence encoded in the Einstein field equations (...)
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  23.  52
    General Relativity, MOND, and the problem of unconceived alternatives.Abhishek Kashyap - 2023 - European Journal for Philosophy of Science 13 (3):1-18.
    Observational discrepancies in galactic rotation curves and cluster dispersion data have been interpreted to imply the existence of dark matter. Numerous efforts at its detection, however, have failed to turn up any positive result. As a dynamical theory is always operative on the assumed mass distribution to predict kinematic observations, some scientists see the discrepancy as telling against General Relativity. Among the many theories that seek to modify gravity, those that are built on Modified Newtonian Dynamics (MOND), or (...)
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  24.  68
    General relativity and the conceivability of time travel.Robert Weingard - 1979 - Philosophy of Science 46 (2):328-332.
    It has been suggested by several philosophers that many of the so-called paradoxes of backward time travel can be resolved if we conceive of the backward time traveller as having a zig-zag or N-shaped world line in spacetime. In this I am in general agreement. But there is still a problem in conceiving of backward time travel this way. In this note I will show how we can solve this problem by conceiving of backward time travel in terms of (...)
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  25.  32
    General relativity as a dynamical system on the manifold a of Riemannian metrics which cover diffeomorphisms.Arthur E. Fischer & Jerrold E. Marsden - 1972 - In D. Farnsworth (ed.), Methods of local and global differential geometry in general relativity. New York,: Springer Verlag. pp. 176--188.
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  26.  7
    General relativity and nuclear reactions.H. W. Guggenheimer - 1960 - Dialectica 14 (2‐3):183-187.
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  27.  43
    The Reinvention of General Relativity: A Historiographical Framework for Assessing One Hundred Years of Curved Space-time.Alexander Blum, Roberto Lalli & Jürgen Renn - 2015 - Isis 106 (3):598-620.
    The history of the theory of general relativity presents unique features. After its discovery, the theory was immediately confirmed and rapidly changed established notions of space and time. The further implications of general relativity, however, remained largely unexplored until the mid 1950s, when it came into focus as a physical theory and gradually returned to the mainstream of physics. This essay presents a historiographical framework for assessing the history of general relativity by taking into (...)
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  28.  30
    Decoding general relativity: Fulvio Melia: Cracking the Einstein Code: Relativity and the Birth of Black Hole Physics. University of Chicago Press, Chicago, 2009, xi + 150 pp, US $25.00 HB.Daniel Kennefick - 2011 - Metascience 20 (1):91-93.
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  29.  35
    A Finslerian extension of general relativity.G. S. Asanov - 1981 - Foundations of Physics 11 (1-2):137-154.
    A Finslerian extension of general relativity is examined with particular emphasis on the Finslerian generalization of the equation of motion in a gravitational field. The construction of a gravitational Lagrangian density by substituting the osculating Riemannian metric tensor in the Einstein density is studied. Attention is drawn to an interesting possibility for developing the theory of test bodies against the Finslerian background.
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  30. The General Relativity Genesis: an Intertheoretic Context.Rinat M. Nugayev - 2017 - Voprosi Filosofii (The Problems of Philosophy) (1):62-70.
    Abstract. The theory-change epistemological model, tried on maxwellian revolution and special relativity genesis, is unfolded to apprehend general relativity genesis. It is exhibited that the dynamics of general relativity (GR) construction was largely governed by internal tensions of special relativity and Newton’s theory of gravitation. The research traditions’ encounter engendered construction of the hybrid domain at first with an irregular set of theoretical models. However, step by step, on revealing and gradual eliminating the contradictions (...)
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  31.  17
    Is spacetime curved? Assessing the underdetermination of general relativity and teleparallel gravity.Ruward Mulder & James Read - 2024 - Synthese 204 (4):1-29.
    Realism about general relativity (GR) seems to imply realism about spacetime curvature. The existence of the teleparallel equivalent of general relativity (TEGR) calls this into question, for (a) TEGR is set in a torsionful but flat spacetime, and (b) TEGR is empirically equivalent to GR. Knox (Stud Hist Philos Sci Part B Stud Hist Philos Mod Phys 42(4):264–275, 2011) claims that there is no genuine underdetermination between GR and TEGR; we call this verdict into question by (...)
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  32.  13
    General Relativity, Cosmology and Astrophysics: Perspectives 100 years after Einstein's stay in Prague.Jiří Bičák & Tomáš Ledvinka (eds.) - 2014 - Cham: Imprint: Springer.
    The articles included in this Volume represent a broad and highly qualified view on the present state of general relativity, quantum gravity, and their cosmological and astrophysical implications. As such, it may serve as a valuable source of knowledge and inspiration for experts in these fields, as well as an advanced source of information for young researchers. The occasion to gather together so many leading experts in the field was to celebrate the centenary of Einstein's stay in Prague (...)
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  33.  6
    Status of general relativity.William B. Bonnor - 1969 - Guernsey, C.I.]: F. Hodgson.
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  34.  62
    On Parametrized General Relativity.J. Brian Pitts & W. C. Schieve - 1998 - Foundations of Physics 28 (9):1417-1424.
    A physical framework has been proposed which describes manifestly covariant relativistic evolution using a scalar time τ. Studies in electromagnetism, measurement, and the nature of time have demonstrated that in this framework, electromagnetism must be formulated in terms of τ-dependent fields. Such an electromagnetic theory has been developed. Gravitation must also use of τ-dependent fields, but many references do not take the metric's dependence on τ fully into account. Others differ markedly from general relativity in their formulation. In (...)
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  35. Change in Hamiltonian general relativity from the lack of a time-like Killing vector field.J. Brian Pitts - 2014 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 47:68-89.
    In General Relativity in Hamiltonian form, change has seemed to be missing, defined only asymptotically, or otherwise obscured at best, because the Hamiltonian is a sum of first-class constraints and a boundary term and thus supposedly generates gauge transformations. Attention to the gauge generator G of Rosenfeld, Anderson, Bergmann, Castellani et al., a specially _tuned sum_ of first-class constraints, facilitates seeing that a solitary first-class constraint in fact generates not a gauge transformation, but a bad physical change in (...)
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  36.  65
    How to Teach General Relativity.Guy Hetzroni & James Read - forthcoming - British Journal for the Philosophy of Science.
    Supposing that one is already familiar with special relativistic physics, what constitutes the best route via which to arrive at the architecture of the general theory of relativity? Although the later Einstein would stress the significance of mathematical and theoretical principles in answering this question, in this article we follow the lead of the earlier Einstein (circa 1916) and stress instead how one can go a long way to arriving at the general theory via inductive and empirical (...)
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  37.  39
    General Relative Clauses in Greek.J. A. Smith - 1917 - The Classical Review 31 (3-4):69-71.
  38. Some philosophical prehistory of general relativity.Howard Stein - 1974 - In John Earman, Clark N. Glymour & John J. Stachel (eds.), Foundations of Space-Time Theories: Minnesota Studies in the Philosophy of Science. University of Minnesota Press. pp. 3-49.
     
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  39.  55
    Elementary particles in bimetric general relativity.Nathan Rosen - 1989 - Foundations of Physics 19 (3):339-348.
    A classical model of an elementary particle is considered in the framework of the bimetric general relativity theory. The particle is regarded as a spherically symmetric object filling its Schwarzschild sphere and made of matter having mass density, pressure, and charge density. The mass is taken to be the Planck mass, and possible values of the charge are taken as zero, ±1/3e, ±2/3e, and ±e, with e the electron charge.
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  40.  69
    Spinors and torsion in general relativity.Roger Penrose - 1983 - Foundations of Physics 13 (3):325-339.
    Conformal rescalings of spinors are considered, in which the factor Ω, inε AB ↦Ωε AB, is allowed to be complex. It is argued that such rescalings naturally lead to the presence of torsion in the space-time derivative▽ a. It is further shown that, in standard general relativity, a circularly polarized gravitational wave produces a (nonlocal) rotation effect along rays intersecting it similar to, and apparently consistent with, the local torsion of the Einstein-Cartan-Sciama-Kibble theory. The results of these deliberations (...)
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  41.  72
    Complementarity meets general relativity: A study in ontological commitments and theory unification.Alexander Rüger - 1989 - Synthese 79 (3):559 - 580.
    The apparent underdetermination of the formalism of quantum field theory (QFT) as between a particle and a field interpretation is studied in this paper through a detour over the problem of unifying QFT with general relativity. All we have at present is a partial or approximate unification, QFT in non-Minkowskian spaces. The nature of this hybrid and the problem of its internal consistency are discussed. One of its most striking implications is that particles do not have an observer-independent (...)
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  42.  11
    The Problem of Time: Quantum Mechanics Versus General Relativity.Edward Anderson - 2017 - Cham: Imprint: Springer.
    This book is a treatise on time and on background independence in physics. It first considers how time is conceived of in each accepted paradigm of physics: Newtonian, special relativity, quantum mechanics (QM) and general relativity (GR). Substantial differences are moreover uncovered between what is meant by time in QM and in GR. These differences jointly source the Problem of Time: Nine interlinked facets which arise upon attempting concurrent treatment of the QM and GR paradigms, as is (...)
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  43.  94
    On locality in quantum general relativity and quantum gravity.Eduard Prugovečki - 1996 - Foundations of Physics 26 (12):1645-1668.
    The physical concept of locality is first analyzed in the special relativistic quantum regime, and compared with that of microcausality and the local commutativity of quantum fields. Its extrapolation to quantum general relativity on quantum bundles over curved spacetime is then described. It is shown that the resulting formulation of quantum-geometric locality based on the concept of local quantum frame incorporating a fundamental length embodies the key geometric and topological aspects of this concept. Taken in conjunction with the (...)
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  44.  40
    Conventionalism and general relativity.I. W. Roxburgh & R. K. Tavakol - 1978 - Foundations of Physics 8 (3-4):229-237.
    We argue that the geometry of spacetime is a convention that can be freely chosen by the scientist; no experiment can ever determine this geometry of spacetime, only the behavior of matter in space and time. General relativity is then rewritten in terms of an arbitrary conventional geometry of spacetime in which particle trajectories are determined by forces in that geometry, and the forces determined by fields produced by sources in that geometry. As an example, we consider radial (...)
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  45.  49
    General Relativity Conflict and Rivalries: Einstein's Polemics with Physicists.Galina Weinstein - 2015 - Cambridge Scholars Press.
    This book focuses on Albert Einstein and his interactions with, and responses to, various scientists, both famous and lesser-known. It takes as its starting point that the discussions between Einstein and other scientists all represented a contribution to the edifice of general relativity and relativistic cosmology. These scientists with whom Einstein implicitly or explicitly interacted form a complicated web of collaboration, which this study explores, focusing on their implicit and explicit responses to Einstein s work. This analysis uncovers (...)
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  46.  28
    General Relativity without Black Holes.John Cramer - unknown
    This column is a milestone. It's the 100 th Alternate View column that I've written for Analog over a period of 16 years beginning in 1983. I was on a sabbatical in Berlin when Stan recruited me to write the column after Jerry Pournelle, my predecessor as AV columnist, decided to step down. The AV columns are a soapbox that was too attractive to pass up, and I've used them to promote an interst in science and to feed cutting-edge science (...)
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  47. Holism and structuralism in classical and quantum general relativity.Mauro Dorato & Massimo Pauri - 2006 - In Dean Rickles, Steven French & Juha T. Saatsi (eds.), The Structural Foundations of Quantum Gravity. Oxford, GB: Oxford University Press. pp. 121-151.
    The main aim of our paper is to show that interpretative issues belonging to classical General Relativity (GR) might be preliminary to a deeper understanding of conceptual problems stemming from on-going attempts at constructing a quantum theory of gravity. Among such interpretative issues, we focus on the meaning of general covariance and the related question of the identity of points, by basing our investigation on the Hamiltonian formulation of GR. In particular, we argue that the adoption of (...)
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  48. General relativity and the length of the past.Robert Weingard - 1979 - British Journal for the Philosophy of Science 30 (2):170-172.
  49.  2
    Lectures on general relativity.A. Trautman (ed.) - 1965 - Englewood Cliffs, N.J.,: Prentice-Hall.
  50.  29
    Energy and Uncertainty in General Relativity.F. I. Cooperstock & M. J. Dupre - 2018 - Foundations of Physics 48 (4):387-394.
    The issue of energy and its potential localizability in general relativity has challenged physicists for more than a century. Many non-invariant measures were proposed over the years but an invariant measure was never found. We discovered the invariant localized energy measure by expanding the domain of investigation from space to spacetime. We note from relativity that the finiteness of the velocity of propagation of interactions necessarily induces indefiniteness in measurements. This is because the elements of actual physical (...)
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